Page 1
Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
GRINDER SEWAGE PUMPING STATIONS AND PIPING
VI – IX - 1 Rev 2 10
ITEM IX - DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT
AND GRINDER, SEWAGE PUMPING STATIONS AND PIPING
9.01 Scope
(a) Sewage pumping stations shall consist a minimum of 2 sewage pumps (min. 5 HP
each), each capable of pumping the peak design flow, and associated controls,
piping and structures.
Design Basis: Each pump must have the necessary characteristics and be properly
selected and designed to perform under operating conditions shown on the pump
station drawings. Specific operating conditions shown on the Plans or specified in
the Special Conditions or the Specifications will be as follows:
Capacity (GPM)
Total Dynamic Head (feet)
Minimum Pump Efficiency (percent)
Maximum Sphere passage (Inches)
Maximum Motor Horsepower
Motor voltage/Phase/Hertz
Minimum Service Factor
Pumps provided, including the spare pump and motor, shall be delivered pre-
adjusted to meet the specified conditions.
(b) Preparation and grading of site and excavation; concrete and steel reinforcement;
valves and piping; grassing and planting, miscellaneous metal work; and painting
shall conform to the requirements of MSD’s Standard Specifications.
(c) The Pump Station site shall be 2 feet (min.) above the 100 year flood elevation.
9.02 General
(a) Pumps, piping and other equipment shall be new and unused, designed for the
service intended, and shall be suitable for installation and efficient operation
within the space and under the conditions shown on the Plans and specified
herein. All equipment shall be properly protected so that no damage or
deterioration will occur during shipment or storage.
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Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
GRINDER SEWAGE PUMPING STATIONS AND PIPING
VI – IX - 2 Rev 2 10
(b) All structural steel work shall comply with the requirements of the American
Institute of Steel Construction Specifications for the Design, Fabrication and
Erection of Structural Steel for Buildings.
(c) The CONTRACTOR shall furnish the services of a competent engineering
representative of the manufacturer of the pumps to inspect their installation and
supervise initial operation. Upon completion of such supervision, the
manufacturer's representative shall provide the ENGINEER a signed certificate
which states that the pumps have been checked; that they perform satisfactorily;
and that they meet the requirements of the Specifications. This certificate shall
show the name of the pump manufacturer and the name of the company or firm by
which the representative is employed.
(d) The CONTRACTOR shall furnish the services of a competent engineering
representative or the manufacturer of the standby generator to inspect the
installation and supervise the initial start-up and operation. A complete 4 hour
(min.), 100 percent load test shall be conducted during the start up. Load test
shall be at rated generator load. Upon completion of standby generator startup,
the manufacturer’s representative shall provide the ENGINEER a signed
certificate which states that the generator has been checked; that it performed
satisfactorily; and that it meets the requirements of the Specifications. This
certificate shall show the name of the generator manufacturer and the name of the
company or firm by which the representative is employed.
(e) The CONTRACTOR shall furnish to the ENGINEER 3 copies of drawings of
equipment to be furnished; foundation plans, number and position of all anchor
bolts, manufacturer's specifications, descriptive literature, complete electrical data
and control diagrams, and operating and maintenance instructions. Three copies
of performance curves shall also be furnished for the pumping equipment,
showing the condition point, shut-off head, the impeller diameter, the pump
speed, and the horsepower. Descriptive literature and operating and maintenance
instructions shall be furnished at the same time equipment drawings are furnished.
This material shall be furnished in suitable binders.
9.03 Spare Parts
The manufacturer shall furnish a complete set of spare parts to include at least the
following: One complete pump and motor assembly including corded cap, one
flange guide, and one complete mechanical seal.
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Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
GRINDER SEWAGE PUMPING STATIONS AND PIPING
VI – IX - 3 Rev 2 10
9.04 Warranties
The pumps shall be warranted to be free from defects in workmanship, design,
and materials for a period of 1 year under normal use, operations, and service.
The pump seals shall be warranted for a minimum of 5 years from the date of
shipment. Should the seals fail within the first year, the manufacturer shall be
obligated, upon notification, to furnish new seals, without charge to the
DISTRICT. The cost of replacement seals thereafter will be on a pro-rated basis
as follows:
Months After Shipment
Percentage of New Seal Price
0-18
0%
19-31
25%
32-45
50%
46-60
75%
9.05 Submittals
(a) Submittals for Plan Review shall include detailed drawings as specified herein
and design calculations. Design calculations shall include flow calculations,
pump cycle time calculations, pump on/off and alarm level, anti-flotation
calculations, and system curve showing operating point, efficiency, and required
brake horsepower.
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Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
GRINDER SEWAGE PUMPING STATIONS AND PIPING
VI – IX - 4 Rev 2 10
(b) The Design Submittal Checklist shall include but not necessarily be limited to the
following items. The Engineer of record shall check and sign the checklist.
_____1. 12 foot wide access road, with 2 foot shoulders and adequately
designed ditches.
_____2. Turn-around outside the gate, as specified.
_____3. Access road, turn-around and site paved, including 2 feet outside
perimeter fence, and are adequately drained.
_____4. Site layout provides 5 feet (min.) clearance between perimeter fence
and equipment.
_____5. Wet well is properly sized for 4 – 8 cycles per hour at design flow.
_____6. Wet well is designed to resist buoyant force, if applicable.
_____7. The pumps are the most efficient available among acceptable
manufacturers.
_____8. Pipe and valves and fittings meet MSD specifications.
_____9. All mounting hardware, flange bolts and hardware mounting bolts are
stainless steel.
_____10. Guide rails and lifting cable or chain and cable hanger are stainless
steel.
_____11. All ductile iron pipe is minimum Class 350.
_____12. All exposed piping, valves, and fittings shall be flanged. Pipe shall be
flanged with threaded flanges. Bolt on, or adapter flanges are not
acceptable.
_____13. Influent manhole with only one penetration into the wet well.
_____14. The wet well and valve vault hatches are of adequate size for
equipment removal.
_____15. Valve vault hatches are of adequate size for entry, valve operation, and
force main bypass connection.
_____16. 1500 lb. (min.) electric winch hoist is provided with 115 volt
weatherproof electrical outlet within 8 feet, with adequate footing.
_____17. All power and control panels are housed in stainless steel NEMA 4x
enclosures.
_____18. The support structure for power and control panels is stainless steel
channel sections.
_____19. The site layout provides adequate clearance between the wet well and
control panels and wet well and generator.
_____20. Adequate area lighting is provided.
_____21. Adequate enclosure fence is provided.
_____22. The wet well has a DI screened vent.
_____23. The force main drawings include a plan and profile view with
maximum scales of 1” = 10’ vertical and 1” = 50’ horizontal.
_____24. Pump Station site is above 100 year flood elevation.
_____25. One harnessed flange dismantling joint shall be provided on each pump
discharge line in the valve vault.
Engineer of Record Date (SEAL)
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Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
GRINDER SEWAGE PUMPING STATIONS AND PIPING
VI – IX - 5 Rev 2 10
(c) Shop Drawing Submittal List (provide 3 copies for MSD plus number of copies
needed for DISTRICT, CONTRACTOR and Engineer of Record).
Shop drawing submittals shall include but not necessarily be limited to the
following materials and equipment:
Pump Station Wet Well Main Circuit Breaker
Pumps Fused Disconnect
Foundation Plan Transfer Switch
Buildings Disconnect Switch
Equipment Enclosures Ultrasonic Level Control
Odor Control System Conduit Seals
Wet Well Hatch Electrical Conduits
DI Flanged Piping Air/Vacuum Valves
Backup Elec. Generator SS Structural Supports
DI Gasket Pipe Pump Hoist
Force Main Pipe Access Hatches
DI Fittings Drain Piping w/Flap Valve
SS Bolts and Fasteners FM Bypass Connection, 4” male
Pipe Paint Yard Hydrant
Screened Vents RP Backflow Preventor
Check Valves Water Meter
External Swing Arm Ladders
Gate Valves Pump Control Panel
Plug Valves Pump Hoist
Valve Vault Telemetry Panel
Vault Hatches Service Disconnect
Chain Link Fencing & Gate Electrical Wiring
Heated Enclosure for BFP Wire Trough
Transfer Switch Area Light and Pole
Electrical Control Schematic SCADA System
Harnessed Dismantling Joint
(d) Operation and Maintenance Manuals
The CONTRACTOR shall furnish 3 complete sets of operation and
maintenance (O&M) manuals, organized in a three-ring binder or suitable
binders. The O&M manual shall also be provided on a CD or DVD, and shall
include the following items, as installed:
1. Detailed pump drawings and parts list.
2. Pump system curve showing operating point, shut-off head, pump speed,
efficiency, horsepower, and impeller diameter.
3. Manufacturer’s specifications and descriptive literature, and regular
maintenance schedules for all equipment.
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Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
GRINDER SEWAGE PUMPING STATIONS AND PIPING
VI – IX - 6 Rev 2 10
4. Supplier’s name, address, phone number, and fax number for all materials
and equipment.
5. Wiring diagrams for all control and electrical panels. Diagrams shall show
wiring added to interface with other panels and equipment. These diagrams
shall also note conduits with numbering so wires can be traced. When relays
are noted, they shall be identified as to location in the equipment.
6. The pump station manufacturer shall supply 3 complete sets of
comprehensive written instructions to enable an operator to properly operate and
maintain the equipment supplied. Content of the instructions shall assume the
operator is familiar with pumps, motors, piping and valves but that he has not
previously operated and/or maintained the exact equipment supplied.
7. The instructions shall be prepared as a system manual applicable solely to the
pump station equipment and related devices supplied by the manufacturer, as
specified herein. Instructions for any equipment for which the manufacturer has
not supplied, but has made mounting or other provisions, shall also be provided.
8. The instructions shall include, but not be limited to, the following:
(a) Descriptions of, and operating instructions for, each major component of
the complete pump package as supplied.
(b) Instructions on operation of the pumps and pump controls in all intended
modes of operation.
(c) Instructions for all adjustments which must be performed at initial startup
of pump equipment, adjustments required after the replacement of liquid
level control system components, and adjustments as required in the
course of preventative maintenance as specified by the manufacturer.
(d) Service instructions for major components not manufactured by the pump
station manufacturer, but supplied by him in accordance with the
Specifications. In such case, the literature supplied by the actual
manufacturer shall be incorporated as an appendix.
(e) Electrical schematic diagram of the pump station as supplied, prepared in
accordance with industry standards. Schematics shall illustrate, to the
extent of authorized repair, pump motor branch, control and alarm system
circuits, and interconnections among these circuits. Wire numbers shall be
shown on the schematic. Schematic diagrams for individual components,
not normally repairable by the station operator, need not be included and
details for such parts shall not be substituted for an overall system
schematic. Partial schematics, block diagrams, and simplified schematics
shall not be provided in lieu of an overall system diagram.
(f) Layout drawing of the pump station as supplied, prepared in accordance
with good commercial practice, showing the location of all pumps, motors,
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Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
GRINDER SEWAGE PUMPING STATIONS AND PIPING
VI – IX - 7 Rev 2 10
valves and piping.
(g) Operation and maintenance instructions shall be specific to the equipment
supplied in accordance with these Specifications. Instruction manuals
applicable to many different configurations of pump stations, and which
require the operator to selectively read portions of the manual will not be
acceptable. Operation and maintenance instructions which are limited to a
collection of product literature without addressing overall pump station
operation and maintenance will not be acceptable.
(h) Complete operation and maintenance manuals for emergency power
generation system.
9.06 Public Utility Accounts For Pump Stations
The CONTRACTOR or Development Owner shall set up the accounts for all
applicable utilities providing service to the pump station site, i.e. water, power,
natural gas. The accounts shall be set up in the Development Owner's name and
later transferred to the DISTRICT’s name. In either case the Development
Owner shall be responsible for payment of all utility bills until such time that the
DISTRICT takes ownership of the pump station. The Development Owner shall
provide verification that all accounts are in good standing at time of transfer of
ownership to the DISTRICT.
9.07 Submersible Non-Clog Sewage Pumps
(a) Submersible non-clog sewage pumps shall be capable of handling raw,
unscreened sewage and passing 3-inch diameter solids. The discharge connection
elbows shall be permanently installed in the wet well along with the discharge
piping. The pumps shall be automatically connected to the discharge connection
elbows when lowered into place and shall be easily removed for inspection and
service. Installation and removal of pumps shall not require personnel to enter the
wet well. Sealing of the pump units to discharge connections shall be
accomplished by linear downward motion of the pumps. The pump, with its
appurtenances and cable, shall be capable of continuous submergence in water to
depths of 231 feet without leakage.
(b) Each of the two submersible sewage pumps shall have the capacity, minimum
efficiency, and motor size specified in the Special Conditions or on the Plans. The
maximum pump motor speed shall be 1,800 rpm. Motors shall be suitable for 460
volt, 60 Hz, 3-phase operation.
(c) Pumps, motors, pump discharge connections, discharge elbows, guide rails, float
switches and electrical cable, and pump guides shall be designed for Class 1,
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Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
GRINDER SEWAGE PUMPING STATIONS AND PIPING
VI – IX - 8 Rev 2 10
Groups C and D, Division 1, hazardous locations, as defined by the National
Electrical Code and shall be so certified by an independent laboratory.
(d) All bolts, machine screws, nuts, lockwashers, and other hardware used in the
assembly of discharge elbows, guide rails, pump guides, hoist chains, float cable
connectors, and access frames and covers shall be of stainless steel.
(e) Pumps shall be constructed of cast iron which complies with the requirements of
ASTM Specification A48, Class 30. All pump openings and passages, including
impellers, shall be of adequate size to pass spheres at least three inches in
diameter and trash of stringy material which commonly occurs in sanitary sewage.
Impellers shall be the enclosed or open type having a minimum number of vanes
and shall be of cast iron construction, dynamically balanced. Stainless steel
impeller wearing rings with mating stainless steel case wearing rings shall be
provided on the inboard side of open impellers. Impellers shall be mounted in the
stainless steel motor shaft. An oil chamber and two mechanical seals shall seal
the motor from the pump liquid. Moisture detection probes shall be mounted in
the oil chamber which are interlocked with the motor to shut down the pump and
turn on a warning light on the motor control center when moisture is present in the
oil chamber. Thermistors mounted in the bottom of the stator housing may be
used instead of the moisture detection probes. Mechanical seals shall consist of
upper and lower seals. Upper seals shall have ceramic stationary faces and carbon
rotating faces with stainless steel springs. Lower seals shall have tungsten carbide
stationary and rotating faces with stainless steel springs. Discharge connections
shall have contact surfaces of non-sparking materials. Discharge elbows shall be
of cast iron with integral bases for anchoring and supporting pumps and piping.
Flanges shall conform to the requirements of ANSI/AWWA Specification C110.
The metal contact surfaces shall be of non-sparking materials. Pump guides shall
be stainless steel. The entire pump units shall be designed for Class 1, Groups C
and D, Division 1, hazardous locations, as defined by the National Electrical Code
and shall be so certified by an independent laboratory, so that forced wet well
ventilation and redundant cut-off switches are not required. A welded, stainless
steel chain of adequate size shall be permanently attached to each pump.
Provisions shall be made for attaching the upper end of each chain to the wet well
access frame and cover.
(f) Submersible pump motors shall be designed for Class 1, Groups C and D,
Division 1, hazardous locations as defined by the National Electrical Code and
shall be so certified by an independent laboratory. Motors shall be explosion
proof, squirrel cage induction type housed in an oil-filled cast iron watertight
enclosure. The enclosure shall be sealed by O-rings and shall have rabbet joints
with a large overlap. Cable leads shall be epoxy sealed. The motor shaft
extension shall be stainless steel, impervious to the liquid and waste materials
being pumped. All external hardware including motor nameplates shall be made
of stainless steel. Motors shall be NEMA Design B: insulation shall be Special
Page 9
Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
GRINDER SEWAGE PUMPING STATIONS AND PIPING
VI – IX - 9 Rev 2 10
Class F rated for continuous duty in 40˚C liquids; shall have a 1.15 service factor;
shall be equipped with winding thermostats; shall be capable of operating for 15
minutes in air at nameplate horsepower, and shall be capable of 15 starts per hour.
The pumps shall be furnished with power and control cords of sufficient length to
connect to the motor control center. The pump motors shall be sized so that they
will not be overloaded at their rated capacity at any point on the pump
performance curve.
(g) The pump shall have a durable, attached nameplate to confirm that it is built in
accordance with the Specification as to HP, voltage, phase and hertz.
(h) Submersible sewage pumps shall be manufactured by the DISTRICT’s preferred
vendors: Gorman-Rupp, Flygt, or Fairbanks Morse. 30 HP or greater pumps
shall be reviewed on an individual basis.
9.08 Submersible Grinder Sewage Pumps
(a) Each pump shall be of the sealed submersible type. The pump volute, motor and
seal housing shall be high quality gray cast iron, ASTM A-48, Class 30. All
external mating parts shall be machined and Buna N Rubber O-ring sealed on a
beveled edge. Gaskets shall not be acceptable. All fasteners exposed to the
pumped liquids shall be 300 series stainless steel. The discharge connection
elbows shall be permanently installed in the wet well along with the discharge
piping. The pumps shall be automatically connected to the discharge connection
elbows when lowered into place and shall be easily removed for inspection and
service. Installation and removal of pumps shall not require personnel to enter the
wet well. Sealing of the pump units to discharge connections shall be
accomplished by linear downward motion of the pumps. The pump, with its
appurtenances and cable, shall be capable of continuous submergence in water to
depths of 231 feet without leakage.
(b) Each of the two submersible grinder sewage pumps shall have the capacity,
minimum efficiency, and motor size specified in the Special Conditions or on the
Plans. The maximum pump motor speed shall be 1,800 rpm. Motors shall be
suitable for 230/460 volt, 60 Hz, 3-phase operation.
(c) Pumps, motors, pump discharge connections, discharge elbows, guide rails, float
switches and electrical cable, and pump guides shall be designed for Class 1,
Groups C and D, Division 1, hazardous locations, as defined by the National
Electrical Code and shall be so certified by an independent laboratory.
(d) All bolts, machine screws, nuts, lockwashers, and other hardware and fasteners
used in the assembly of discharge elbows, guide rails, pump guides, hoist chains,
and float cable connectors shall be of stainless steel.
Page 10
Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
GRINDER SEWAGE PUMPING STATIONS AND PIPING
VI – IX - 10 Rev 2 10
(e) Pumps shall be constructed of cast iron which complies with the requirements of
ASTM Specification A48, Class 30. An oil chamber and two mechanical seals
shall seal the motor from the pump liquid. Moisture detection probes shall be
mounted in the oil chamber which are interlocked with the motor to shut down the
pump and turn on a warning light on the motor control center when moisture is
present in the oil chamber.
(f) An upper radial bearing and a lower thrust bearing shall be required. These shall
be permanently lubricated by the dielectric oil which fills the motor housing.
(g) The shaft shall be machined from solid 416 stainless steel and be a design which
is of large diameter with minimum overhand to reduce shaft deflection and
prolong bearing life.
(h) A rotor and stator in the motor housing shall be separated and protected from the
pumped liquid by an oil filled seal housing incorporating two type 21 carbon
ceramic mechanical seals mounted in tandem. This seal housing shall be
equipped with 2 moisture sensing probes installed between the seals, and the
sensing of moisture in the seal chamber shall be automatic, continuous, and not
require the pump be stopped or removed from the wet well. The sensor probes
shall be electrically isolated, with a resistor between each probe to eliminate
grounding to the casing.
(i) Impeller shall be a bronze multi-vane, semi-open, non-overloading design. They
can either be factory or field trimmed to meet specific performance conditions.
Impellers shall be hydraulically and statically balanced at the factory, and
machined for threading on to the pump shaft. Wear or field trimming shall not
deter the factory balance.
(j) The combination centrifugal pump impeller and grinder unit shall be attached to
the common motor and pump shaft made of 416 stainless steel. The grinder unit
shall be on the suction side of the pump impeller and discharge directly into the
impeller inlet leaving no exposed shaft to permit packing of ground solids. The
grinder shall consist of 2 stages. The cutting action of the second stage shall be
perpendicular to the plane of the first cut for better control of the particle size.
The grinder shall be capable of grinding all materials found in normal domestic
sewage, including plastics, rubber, sanitary napkins, disposable diapers, and
wooden articles into a finely ground slurry with particle dimensions no greater
than ¼ inch. Both stationary and rotating cutters shall be made of 440C stainless
steel hardened to Rockwell 60C and ground to close tolerance.
(k) The upper (axial) cutter and stationary cutter ring shall be reversible to provide
new cutting edges to double life. The stationary cutter ring shall be a slip fit into
the suction opening of the volute and held in place by three 300 series stainless
steel screws and a retaining ring. The lower (radial) cutter shall macerate the
Page 11
Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
GRINDER SEWAGE PUMPING STATIONS AND PIPING
VI – IX - 11 Rev 2 10
solids against the I.D. of the cutter ring and extrude them through the slots of the
cutter ring. The upper (axial) cutter shall cut off the extrusions, as they emerge
from the slots of the cutter ring to eliminate any roping effect which may occur in
single stage cutting action. The upper (axial) cutter shall fit over the hub of the
impeller and the lower (radial) cutter shall be slip fit and secured by means of peg
and hold and rotate simultaneously with the rotation of the shaft and impeller.
The grinding mechanism shall be locked to the shaft by a 300 series stainless steel
countersunk washer in conjunction with a 300 series stainless steel flat head cap
screw threaded into the end of the shaft.
(l) A pump shall be painted after assembly, but before testing, with a lead free air
dried enamel. The paint shall be applied in one coat, with a minimum mil
thickness of 3 to 4 mils.
(m) The pump shall have a durable, attached nameplate to confirm that it is built in
accordance with the specification as to HP, voltage, phase and hertz.
(n) The entire pump units shall be designed for Class 1, Groups C and D, Division 1,
hazardous locations, as defined by the National Electrical Code and shall be so
certified by an independent laboratory, so that forced wet well ventilation and
redundant cut-off switches are not required. A welded, stainless steel chain of
adequate size shall be permanently attached to each pump. Provisions shall be
made for attaching the upper end of each chain to the wet well access frame and
cover.
(o) Submersible pump motors shall be designed for Class 1, Groups C and D,
Division 1, hazardous locations as defined by the National Electrical Code and
shall be so certified by an independent laboratory. Motors shall be explosion
proof, squirrel cage induction type housed in an oil-filled cast iron watertight
enclosure. The enclosure shall be sealed by O-rings and shall have rabbet joints
with a large overlap. Cable leads shall be epoxy sealed. The motor shaft
extension shall be stainless steel, impervious to the liquid and waste materials
being pumped. All external hardware including motor nameplates shall be made
of stainless steel. Motors shall be NEMA Design B: insulation shall be Special
Class F rated for continuous duty in 40˚C liquids; shall have a 1.15 service factor;
shall be equipped with winding thermostats; shall be capable of operating for 15
minutes in air at nameplate horsepower, and shall be capable of 15 starts per hour.
The pumps shall be furnished with power and control cords of sufficient length to
connect to the motor control center. The pump motors shall be sized so that they
will not be overloaded at their rated capacity at any point on the pump
performance curve.
(p) Electrical power cord shall be water resistant 600V, 60Deg.C, UL and/or CSA
approved and applied dependant on amp draw for size. The power cable entry
Page 12
Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
GRINDER SEWAGE PUMPING STATIONS AND PIPING
VI – IX - 12 Rev 2 10
into the cord cap assembly shall first be made with a compression fitting. Each
individual lead shall be stripped down to bare wire, at staggered intervals, and
each strand shall be individually separated. This area of the cord cap shall then be
fitted with an epoxy compound potting which will prevent water contamination to
gain entry even in the event of wicking or capillary attraction. The power cord
leads shall then be connected to the motor leads with extra heavy connectors
having brass inserts with a screwed wire to wire connection. There shall be an
additional epoxy compound potting area separating the motor housing from the
cord cap assembly. The cord cap assembly where bolted to the connection box
assembly shall be sealed with a Buna N Rubber O-ring on a beveled edge to
assure proper sealing.
(q) The stator, rotor and bearings shall be mounted in a sealed submersible type
housing. The stator windings shall have Class F insulation (155 Deg. C. or 311
Deg. F.), and a dielectric oil filled motor, NEMA B design (3 phase), NEMA L
design (single phase). The pump and motor shall be specifically designed so that
they may be operated partially dry or completely submerged in the liquid being
pumped. Stators shall be securely held in place with a removable end ring and
threaded fasteners so they may be easily removed in the field, and must be capable
of being repaired or rewound by a local motor service station. No special tools
shall be required for pump and motor disassembly. Pump shall be equipped with
heat sensors. The heat sensors shall be a low-resistance, bi-metal disc that is
temperature sensitive, and shall be mounted directly in the stator and sized to open
at 120 Deg. C. or 130 Deg. C. and automatically reset at 30-35 Deg. C.
differential. The sensor shall be connected in series with the motor starter coil so
that the starter is tripped if a heat sensor opens. The motor starter shall be
equipped with overload heaters so all normal overloads are protected by external
heater block.
(r) Submersible grinder sewage pumps shall be manufactured by Hydro-O-Matic
Pump Division, Flygt, Myers, or Fairbanks Morse.
9.09 Horizontal Self-Priming Centrifugal Suction Lift Pumps
These pumps will be reviewed on a case-by-case basis.
9.10 Emergency Power Generator
An emergency power generator shall be provided at the station that is adequate to
continuously operate all equipment at the site. It shall be powered by natural gas
(public) or diesel. If natural gas is not available, a diesel powered generator shall
be installed with a fuel tank sized for 72 hour (min.) operation. The fuel tank
shall be full at the time of acceptance by the DISTRICT. The generator shall have
at least 5 feet clearance in all directions. A service disconnect shall be provided
between the generator and power source. Detail drawings must show pad,
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Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
GRINDER SEWAGE PUMPING STATIONS AND PIPING
VI – IX - 13 Rev 2 10
anchoring, and all details needed to evaluate acceptability. Detailed
manufacturer’s information shall be provided. The generator shall be
programmed to automatically start and run for one hour each week at a time to be
determined by the DISTRICT. The generator shall be equipped with an automatic
transfer switch, battery charger, computer cable, and computer software.
9.11 Guide Rails
Guide rails shall be of stainless steel which shall be attached to the access frame
and cover by stainless steel brackets and anchors. The guide rail support shall be
adjusted so that optimum vertical alignment can be obtained.
9.12 Access Frame and Cover
(a) The wet well and valve pit access frames and covers shall be double door hatches
of all aluminum diamond plate construction reinforced for a 300 psi live load.
The frames shall be extruded and have 316 S.S. hinges and 316 S.S. tamper
resistant bolts/locknuts. The frame shall be cast into the concrete tops of the wet
well and valve pit properly placed to facilitate removal of pumps and valves.
They shall be of the sizes shown on the Plans or selected by the pump
manufacturer. In no case shall access doors be less than that necessary to service
valves and fittings within the pit. Entrance shall be by a removable key or
post/staple for a padlock. A handle on the inside shall permit inside door opening.
Submit detail drawing.
(b) Door leaves shall be ¼-inch thick aluminum diamond plate reinforced for a
300 psi live load. The frame shall be extruded aluminum trough section with
an integral anchor flange on all 4 sides. The frame shall include an EPDM
odor reduction gasket that reduces the amount of odor that escapes from below the
door and a 1 ½ -inch threaded drain coupling. The floor access door shall be
equipped with a flush drop handle that does not protrude above the cover, and 316
stainless steel hold open arms with red vinyl grips that automatically lock the
covers in the 90 degree open position. The door shall have 316 stainless steel
hinges and 316 stainless steel tamper resistant bolts/locknuts. A staple for a
padlock shall be supplied for security. An adhesive backed vinyl material that
protects the product during shipping and installation shall cover the entire top of
the frame and cover. Installation shall be in accordance with the manufacturer’s
attached instructions. The door shall be manufactured and assembled in the
United States. Manufacturer shall guarantee the door against defects, materials
and workmanship for a period of 10 years. The floor access door shall be Model
TPD as manufactured by U.S. Fabrication, Inc.
9.13 Motor Control Center
(a) The motor control center shall control the operation of all pumps. The motor
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Section VI – Technical Specifications
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VI – IX - 14 Rev 2 10
control center shall contain starters for each pump, pump alternation and level
sensing circuits, alarm circuits, and control devices as specified and as required.
The motor control center shall also contain a 15 amp, 120 volt duplex
receptacle.
(b) Each pump starter shall be combination magnetic full voltage circuit breaker type
with magnetic trip circuit breaker and thermal overload elements in each phase.
The circuit breaker and overload elements shall be selected and set for the
nameplate characteristics of the motor furnished and not "typical" values. The
starter shall be UL listed for use on a system with available fault current of at least
22,000 amperes. A service disconnect must be provided between the generator
and the power source.
(c) The alarm circuits shall activate an audible alarm signal, a flashing alarm light on
top of the motor control center, and the SCADA Telemetry. Silence and test
pushbuttons shall be provided for the alarm circuits. Alarm shall be activated by
the failure of either pump, moisture in pump oil chamber, pump motor over
temperature, high-water and low water. Circuits as recommended by the
submersible motor manufacturer shall be used to sense moisture in the oil
chamber. Detection of moisture or motor over-temperature shall cause the motor
to be taken out of service which shall be restarted by only manual means.
(d) Control circuits shall operate at 120 volts from a fused control transformer.
Devices for each motor shall include a hand-off-automatic selector switch, an
elapsed time meter, and a current transformer driven ammeter. A phase
failure/phase reversal relay shall be furnished to remove all pumps from service.
The relay shall operate its voltage if any phase drops below 85 percent of nominal
voltage. Drop out point shall be adjustable over a range of at least 80 to 95
percent of nominal. Pump operation which is interrupted because of power failure
shall re-start automatically upon power restoration. Pilot lights shall be furnished
to indicate phase failure, high water, and moisture seal failure.
(1) Indicating lights shall be furnished for the following functions for each
pump:
High Temperature Shutdown
Running
Automatic
Manual
Seal Failure
(2) Elapsed Time Indicators: Six digit elapsed time indicators (non-reset type)
shall be connected to each motor starter to indicate the total running time
of each pump in "hours" and "tenths of hours".
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Section VI – Technical Specifications
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(3) Equipment Marking: A permanent corrosion resistant name plate shall be
attached to the control and include the following information:
Equipment serial number
Supply voltage, phase and frequency
Current rating of the minimum main conductor
Electrical wiring diagram number
Motor horsepower and full load current
Motor overload heater element
Motor circuit breaker trip current rating
Name and location of equipment manufacturer
(e) The motor control center shall be assembled in a stainless steel NEMA 4
enclosure suitable for mounting on the support structure. Enclosure shall feature a
hinged outer door with key operated cylinder lock and a hinged inner door
containing all control devices. All breakers, overload resets, etc. shall be operable
without opening the inner door. All control devices shall be identified with an
engraved laminated nameplate permanently attached. Internal wiring shall
be permanently identified with wire and terminal number and shall be grouped
and tied to present a neat appearance. The complete motor control center shall be
suitable for use on the voltage shown for the pump motors elsewhere in these
Specifications and shall comply with all requirements of the National Electrical
Code or any state or local codes or ordinances. The support structure shall be
made of stainless steel and approved by the DISTRICT.
9.14 SCADA Telemetry System
(a) The SCADA telemetry system shall be supplied by a reputable company
experienced in installation of SCADA Systems. The DISTRICT’s Electrical
Maintenance Manager shall approve the company doing this work.
(b) A high speed internet connection (cable or Digital Subscriber Line) shall be
provided to the Pump Station site for communication. Downstream speed shall be
a minimum of 1.5 Megabits per second (Mbps), upstream speed shall be a
minimum of 384 Kbps.
(c) A modem shall be provided, and programmed for the Pump Station controls to
communicate with the SCADA telemetry system. The modem shall be rated for
outdoor exposure and conditions.
(d) The alarm and input/output signals communicating with the DISTRICT’s
SCADA system shall be as follows:
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Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
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VI – IX - 16 Rev 2 10
Alarm Matrix:
ALARM DESCRIPTION
Utility Power Failure Utility power has failed.
UPS Battery Low UPS battery voltage is too low.
Generator Status Generator is running or stopped.
Wet Well Level High Wet well level is high.
PH High PH level is too high.
Flow High Alarm Flow level is too high.
Generator Fault Generator has a failure.
Pump 1 Failure Pump 1 failure (overload or seal failure or over
temperature).
Pump 2 Failure Pump 2 failure (overload or seal failure or over
temperature).
Generator Low Fuel Level Generator fuel level is low.
PLC Reporting Error Not currently used.
Communication Failure Usage has changed, now being determined by the
Control Center.
Low Fuel Level Generator fuel level is too low.
Unassigned Future use.
Unassigned Future use.
Unassigned Future use.
Definition of Alarms
1. Utility Power Failure
This alarm is used to signal the SCADA system that the utility power has failed.
This is read from the Automation Transfer Switch (ATS) when it is in the utility
position.
2. UPS Battery Low
This alarm is used to signal the SCADA system that the UPS battery is too low.
This is read from a relay on the UPS.
3. Generator Status
This alarm is used to signal the SCADA system that the station generator is
running. This alarm shall be read from the generator.
4. Wet Well Level High
This alarm is used to signal the SCADA system that the station wet well level is
too high. It shall be read from the ultrasonic level indicator and the backup float
switch.
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Section VI – Technical Specifications
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VI – IX - 17 Rev 2 10
5. Generator Fault
This alarm is used to signal the SCADA system that the station generator has a
failure and can not be started automatically. The signal shall be read from the
generator control panel.
6. Pump 1 Failure
This alarm is used to signal the SCADA system that the pump has failed. It shall
be read from the overload, seal failure or over temperature input on the PLC.
7. Pump 2 Failure
This alarm is used to signal the SCADA system that the Number 2 pump has
failed. It has the same conditions as the Number 1 pump.
8. Low Fuel Level
This alarm is used to signal the SCADA system that the generator has a low fuel
condition. This alarm is read from the generator.
9. PLC Reporting Error
This alarm is used to signal the SCADA system that the PLC has an error. This
alarm is read from the PLC.
10. Unassigned Alarm
On all stations there shall be at least 3 unassigned alarms allocated for future
upgrades.
11. Sigma Communication Failure
This alarm is used to signal the SCADA system that there is a Sigma
communication failure at the station.
Station PLC Input and Output Requirements:
The system shall provide adequate inputs and outputs for each site with sufficient spares
for future addition of equipment. The following table identifies required I/O:
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Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
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VI – IX - 18 Rev 2 10
INPUT STATE PURPOSE USAGE
UPS on Utility Utility / Battery Utility Power
Failure Alarm
Use at all sites.
UPS Battery Low OK / Low UPS Battery
Low Alarm
Use at all sites.
Door Switch Open / Closed Door Open Alarm
Automatic Transfer
Switch Utility Position
Open / Closed ATS Status Use at all sites.
Automatic Transfer
Switch Generator
Position
Open / Closed ATS Status Use at all sites.
Generator Status Running / Stopped Generator Status Use at all sites.
Generator Fault OK / Fault Generator Failure
Wet Well Level High OK / High Wet Well High
Alarm
Use at all sites.
Pump 1 Status Running / Stopped Pump 1 Failure Use at all sites.
Pump 2 Status Running / Stopped Pump 2 Failure Use at all sites.
Pump 1 Overload OK / Overload Pump 1 Failure Use at all sites.
Pump 2 Overload OK / Overload Pump 2 Failure Use at all sites.
Pump 1 Seal OK / Seal Failure Pump 1 Failure Used when
available.
Pump 2 Seal OK / Seal Failure Pump 2 Failure Used when
available.
Pump 1 Over
Temperature
OK / Over
Temperature
Pump 1 Failure Used when
available.
Pump 2 Over
Temperature
OK / Over
Temperature
Pump 2 Failure Used when
available.
Pump 1 Hand / Auto Hand / Auto Pump 1 Status Used when
available.
Pump 2 Hand / Auto Hand / Auto Pump 2 Status Used when
available.
Generator Fuel Level
Low
OK / Low Fuel Generator Low Fuel
Alarm
Used when
available.
Telemetry Use by SCADA
The items listed below shall be displayed on the MSD SCADA system.
1. Wet Well Level
The station wet well level shall be displayed on the SCADA system, in feet.
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VI – IX - 19 Rev 2 10
2. Pump Run Time
The station pump(s) run time(s) shall be displayed on the SCADA system. The
reading is normally returned to SCADA in minutes. The run time(s) shall be
displayed on SCADA in total run time hours and shall be maintained until reset
from the SCADA system.
9.15 Liquid Level Controls
(a) Level control in the wet well shall be “Milltronics Hydro Ranger Ultrasonic” level
controller. Controls shall provide for automatic alternation of the pumps after
each pump run cycle. Controls shall allow for lead/lag operation of the pumps.
Failure of the duty pump shall cause the standby pump to run.
(b) One backup float switch shall be provided for the high water alarm and shall be
sealed within a polyurethane ball. A weight shall be provided for the float switch.
A single stainless steel bracket shall hold the float switch. Float switches and
electrical cable shall be certified by an independent laboratory for Class 1, Groups
C and D, Division 1, hazardous locations, as defined by the National Electrical
Code. Float switches shall be furnished with sufficient cord to connect to the
motor control center and to allow for adjustment.
9.16 Electrical Wiring
(a) The electrical wiring shall consist of a service pole, service entrance, service
disconnect, main breaker, power wiring to pump control panel, power and control
wiring to the pumps, grounding system and metering provisions as required by the
electric utility. All wiring shall comply with requirements of the National
Electrical Code, any state or local codes or ordinances, and the electric utility
company. All materials shall be listed by Underwriters Laboratories and shall be
new and delivered to the job in its original cartons. All exposed conduits shall be
stainless steel minimum, 3/4 inch trade size, meeting UL and ANSI standards. All
power and control conductors shall be Class B stranded copper. Power
conductors shall be minimum number 12 AWG Type RHH-RHW-USE meeting
ICEA Standard S-68-516 or S-66-524. Control conductors shall be minimum No.
14 AWG Type THHN. Ground conductors shall be medium soft drawn, stranded
copper meeting ASTM Standard B-8. Connectors and terminals shall be
solderless compression or pressure type cast connectors. Below grade ground
connections shall be exothermically welded. All wiring shall be run in conduit
except pump power and control cords within the wet well. All conduits from the
wet well to the control panel must be stainless steel and buried at least 18 inches
deep. All conduit ends must be sealed watertight in the wet well and at the
electrical box. Conduit seals shall be installed above and below the wire trough.
(b) The service pole shall be treated pine, minimum class 4, with at least 20 percent
of its length set in earth and firmly tamped. Height, location, and setting depth
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ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
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VI – IX - 20 Rev 2 10
shall be as required by the electric utility. Metal poles will be approved on a case-
by-case basis.
(c) The main breaker shall be an enclosed circuit thermal-magnetic breaker, 3 pole,
and 600 volt, labeled as suitable for service equipment. The service shall be
protected with a three pole secondary lightning arrestor connected directly to the
grounding system.
(d) All wiring methods and materials within the wet well shall comply with code
requirements for Class I, Division I, Group C and D areas. Pump power and
control cords shall be run from the wet well to the pump control panel
underground in conduit at least 18 inches deep. Conduit shall be sealed around
the cord inside the wet well in such a manner that the cord and seal may be
removed from the conduit system when the pump must be removed for repair.
(e) The grounding system shall consist of bare copper conductors, minimum No. 2
AWG, bonding together the wet well reinforcing steel, the pump rails, metallic
piping, the utility company neutral conductor, and a driven ¾ inch x 10 foot
copper clad ground rod at the service pole. Grounding bushings shall be used at
all conduit terminations in enclosures to insure ground continuity.
(f) The CONTRACTOR shall coordinate the installation with the electric utility. The
CONTRACTOR shall furnish and/or install metering provisions as required by
the utility, verify service voltage, and include in his bid any charges from the
utility for providing service to the station.
(g) Electrical conduit shall be SCH 80 PVC below ground and on the light and
SCADA pole. All other above ground conduit and penetrations into the wet well
shall be stainless steel.
(h) The electric meter shall be located outside of the fenced area on an appropriate
support structure in accordance with the requirements of the electric utility.
(i) Area lighting and hot box shall derive their power from the metered power supply
for the station. Under no circumstances shall two accounts be allowed for a
station such as a remote hot box installation.
(j) All electrical work and materials shall comply, as a minimum, with the National
Electrical Code.
9.17 Hoist
(a) An electric motor driven winch hoist shall be provided and located to service both
pumps and the valve vault. The hoist shall be a cable type having a fabricated
steel support frame. It shall have a minimum capacity of 1,500 pounds. The
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ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
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VI – IX - 21 Rev 2 10
cable end shall be fitted with a grab hook to properly connect to the lifting chain
which is attached to the pump-motor combination. A 115 Volt outlet must be
provided within 1 foot of the hoist.
9.18 Wet Well Structure
(a) The wet well structure shall consist of a precast concrete manhole or placed
concrete of the type and size shown on the Plans. The precast manhole sections
shall conform to the DISTRICT’s Manhole Specifications. The structure shall be
level and all grout work shall be smooth with a steel trowel finish. Solid concrete
fillets shall be poured to create a sump in which the pump sits. These fillets shall
be in accordance with standard details as far as height and slope but shall be
oriented in relation to the pump installation requirements.
9.19 Installation and Erection
(a) Pumps and other equipment shall be erected and installed by competent, skilled
mechanics at the exact positions and elevations shown on the Plans.
(b) The CONTRACTOR shall furnish all necessary oil and grease for the operation of
the equipment during the initial trial operation.
(c) Anchor bolts shall be type 304 stainless steel, accurately placed in the concrete
foundations in their exact position and elevation by the use of templates, and all
anchor bolt settings shall be carefully checked before concrete for the foundation
is placed.
(d) All equipment and connecting piping shall be installed and supported in such
manner that no load from the piping will be carried by the pumps.
(e) The CONTRACTOR shall properly grout each piece of equipment after it has
been carefully aligned and leveled with steel wedges. The grout shall be poured
so as to completely fill the space between the bottom of the base of the equipment
and the top of the foundation. Grout shall be a non-shrinking type.
(f) After installation, the wet well shall be filled with clean water and allowed to
stand for 24 hours (minimum) and then the water level shall be measured to
determine if leakage has occurred. After satisfactory completion of the
hydrostatic test of the wet well, a drawdown test and start-up shall be performed.
A factory representative shall be on site for this test. Each pump shall be run
through 3 drawdown cycles, measuring drawdown and timing the run to compute
pumping rate. Clean water shall be used for the drawdown test. The controls
shall be checked for operation in the automatic and manual operation modes.
Float switches, if installed, shall be checked for proper elevations and operation.
The SCADA system and alarms shall be programmed and checked for proper
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ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
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VI – IX - 22 Rev 2 10
operation.
9.20 Sewage Pumping Station and Sewage Force Main Piping
(a) All pipe materials shall be first quality with smooth interior and exterior surfaces,
free from cracks, blisters, honeycombs and other imperfections, and true to
theoretical shapes and forms throughout. All materials shall be subject to the
inspection of the ENGINEER at the Plant, trench, or other point of delivery, for
the purpose of culling and rejecting materials, which do not conform to the
requirements of the Specifications. Rejected materials shall be removed from the
project site. Minimum force main pipe size shall be 2 inches. A copper tracer
wire and plastic caution tape shall be buried above the full length of the force
main, in accordance with the details.
(b) As particular specifications are cited, the designation shall be construed to refer to
the latest revision.
(c) Exposed piping inside the wet well and valve vault shall be flanged joint, ductile
iron. Stainless steel bolts shall be used on all flanged joints with anti-seize
applied to threads. Flanged pipe shall be manufactured with threaded flanges.
Bolt-on or adapter flanges are not acceptable.
(d) Ductile iron pipe with flanged joints shall conform to the requirements of
ANSI/AWWA Specification C115/A21.15. Flanges shall conform to the
requirements of ANSI/AWWA Specification C115/A21.15.
(e) Fittings for flanged ductile iron pipe shall be of ductile iron. Flanged fittings shall
conform to the requirements of ANSI/AWWA Specification C110/A21.10 and
shall be suitable for a water working pressure of 250 psi. Flanges shall conform
to the requirements of ANSI/AWWA Specification C110/A21.10.
(f) Underground Sewage Force Main piping, inside the pumping station site,
(generally inside the fenced area), shall be ductile iron pipe with gasketed,
compression type joints, "slip-joints". Ductile iron pipe with slip joints shall
conform to the requirements of ANSI/AWWA Specification C151/A21.51. The
pipe shall be Class 350. Slip joints shall conform to the requirements of
ANSI/AWWA Specification C111/A21.11. Minimum cover shall be 30 inches.
(g) Force Main piping outside the pump station site to the point of discharge may be
either ductile iron as above specified or PVC, unless the pipe material is
specifically called out on the Plans or in the Special Conditions of the Technical
Specifications.
(h) Poly-Vinyl Chloride Pipe (PVC) shall comply with the requirements of
ANSI/AWWA Specification C900, Class 200. The pipe shall bear the National
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Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
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VI – IX - 23 Rev 2 10
Sanitation Foundation seal for potable water pipe. The pipe shall be of PVC Class
12454-B material, as specified in ASTM 1784. Joints shall be of push-on design,
and shall utilize a rubber gasket which shall be designed to insure watertight joints
at sustained pressures not less than the pressure class of the pipe. Joints shall be
integral with the barrel of the pipe, and shall be manufactured as a homogeneous
part of the barrel. No solvent welding or cements shall be used in manufacture of
the pipe or construction of the pipe line. PVC shall be manufactured in 20-foot
lengths. Fittings for PVC pipe shall be of mechanical joint ductile iron, and shall
comply with the requirements of applicable sections of these Specifications.
(i) Potable water service for wash down shall be copper tubing from backflow
preventor to hydrant and shall be soft annealed type K and shall comply with
federal specifications WW-T-799.
9.21 Valves
(a) No valve or discharge piping shall be less than 3-inch nominal diameter unless
approved otherwise by the ENGINEER. All valves shall be field adjustable for
varying discharge heads, and shall have the full opening of the incoming and
outgoing pipe diameter.
(b) Plug Valves
(1) Plug valves shall be provided and must allow either or both pumps to be
isolated from the force main and the emergency discharge. Valve shall
pass 3-inch spherical solids. The plug valve shall be non-lubricated,
tapered type. Valve body shall be cast iron or semi-steel. The drip-tight
shutoff plug shall be mounted in stainless steel bearings, and shall have a
resilient facing bonded to the sealing surface. Valve shall be operated with
a single lever actuator providing lift, turn, and reseat action. The lever
shall have a locking device to hold the plug in the desired position.
(2) Plug valves shall be suitable for non-shock water working pressures of 200
psi in sizes 12 inches and smaller and 150 psi in sizes 14 to 36 inches.
The valves shall provide drip-tight shutoff up to the full pressure rating of
the valves in either direction.
(3) End connections shall be flanged inside the valve vault and mechanical
joint if buried. In general, valves installed underground shall have
mechanical joints and exposed valves shall be flanged. Flanged
connections shall conform to the requirements of ANSI/AWWA
Specification C110. Mechanical joint connections shall conform to the
requirements of ANSI Specification A21.11.
(4) Operating means shall be by wrench or by worm-gear operator. Valves 6
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Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
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VI – IX - 24 Rev 2 10
inches in size and smaller shall be lever operated and valves 8 inches in
size and larger shall be wormgear operated. Wormgear operators shall be
enclosed of semi-steel construction. Exposed nuts, bolts, and washers
on wormgear operators shall be zinc plated. Valves and operators
for underground service shall be sealed to prevent moisture entrance to
valve and operator parts. Valves installed underground shall be provided
with extension stems and cast iron valve boxes. A sufficient number of
standard levers and tee wrenches shall be furnished so that valves in each
location are provided with at least one lever or tee wrench, as applicable.
(c) Check Valves
(1) Each pump shall have a full flow swing check valve which passes 3-inch
spherical solids. Body to be cast iron, class 30 with flanged ends. Design
shall incorporate a cleanout port, external lever with spring, and
replaceable valve seat of AISI 304 stainless steel. Valve clapper shall be of
molded neoprene with low pressure sealing rings provided at seating
surfaces. Hinge pin and external hinge arm shall be stainless steel
supported on each end by brass bushings; the sealing bushing shall have
double O-rings. Replacement of O-rings shall not require valve removal or
access to interior of valve body. Water working pressure to be rated at 175
psi, 350 psi hydrostatic test pressure. Valves that prevent passage of a 3-
inch spherical solid are not acceptable. Check valves shall be Stockham
Figure # G931-LS (lever with spring) or pre-approved equal.
(2) Check valves shall be of the nominal pipe diameter shown on the Plans
and shall be so designed that, when open, they will have a clear waterway
section of not less than the full nominal inside diameter of the connecting
pipe. Check valves shall be as manufactured by Mueller Co., M & H
Valve & Fittings Co., American-Darling Valve, or pre-approved equal.
(d) Air/Vacuum Release Valves
(1) A combination air/vacuum valve shall be installed on the sewage force
main at the locations shown on the Plans, or where directed by the
ENGINEER. Generally an air/vacuum valve shall be installed at all high
points, increased down slopes, decreased upward slopes, long ascents,
long descents and at long horizontal runs. Air/Vacuum valves shall be
Val-Matic model #VM-100-S or pre-approved equal. The valve body and
tapping saddle shall be epoxy coated. The tapping saddle bands shall be
stainless steel.
(2) The air/vacuum valve shall be a combination valve designed to exhaust
large amounts of air during filling of the force main, to release small
amounts of accumulated air during operation, and to admit large amounts
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Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
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VI – IX - 25 Rev 2 10
of air upon impending vacuum during draining.
(3) The valve shall be float operated and both the air/vacuum and air release
functions shall be housed in a single body. The valve body and cover shall
be of cast iron conforming to ASTM Specifications A126, Class B. All
leverage mechanisms, parts and the spherical float shall be stainless steel,
Grade 304. The large and small orifice seats shall be Buna-N and shall be
renewable.
(4) The air/vacuum valve shall be supplied with flushing attachments to allow
periodic flushing of sediment, grease, and solids. Flushing attachments
shall consist of an inlet isolating valve, bronze blow-off and flushing
valves, and a minimum of 5 feet of rubber hose with quick disconnects to
allow connection to a source of clean flushing water.
(5) All air/vacuum valves shall be installed in a vented manhole, meeting the
requirements of Item II of the Specifications. The manhole shall not have
a base and shall have cut-outs for the sewage force main. The manhole
shall be installed such that no load is applied to the pipe, and shall have 8-
inch minimum washed stone in the bottom and up to the springline of the
force main. The manhole shall be vented with both a stainless steel vent
and a vented cover.
(e) Valve Boxes
(1) Each underground valve installed outside of buildings or structures shall
be provided with a valve box to house and protect the valve. Valve boxes
shall be made of cast iron, of the adjustable sliding type, with a shaft
diameter of 5¼-inches. The base shall be round or oval. The box shall be
provided with an extension section so that, when installed, the cover will
be slightly above ground surface.
(2) Valve boxes shall be Figure 4905 as manufactured by Opelika Foundry
Company, or comparable boxes as manufactured by the Mueller Company,
John Bouchard & Sons, Company, or pre-approved equal.
9.22 Hydrostatic Testing of Sewer Force Main Pipe
(a) After pressure sewer pipe has been laid, backfilled, and the necessary concrete
thrust blocks constructed, the pipe shall be subjected to a hydrostatic pressure of
100 psi for a minimum period of 2 hours.
(b) The pipe shall be slowly filled with water and the specified test pressure,
measured at the point of lowest elevation, shall be applied by means of a pump
connected to the pipe. The pump, pipe connection, gauges, meters, and other
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ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
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VI – IX - 26 Rev 2 10
apparatus required for the tests shall be furnished and installed by the
CONTRACTOR.
(c) Before applying the specified test pressure, all air shall be expelled from
the pipe. To accomplish this, air/vacuum release valves shall be in service.
(d) All exposed pipes, fittings, and joints shall be carefully examined as the force
main is installed and during testing. All leakage in joints shall be completely
stopped. Any cracked or defective pipes or fittings discovered in consequence of
this pressure test, shall be removed and replaced by the CONTRACTOR with
sound material in the manner herein before provided and the test shall be repeated
until satisfactory to the ENGINEER.
9.23 Water Service to Sewage Pump Stations
(a) Water service to sewage pump station sites shall consist essentially of a water
meter, meter yolk, corporation stop, meter box and cover, double check/reduced
pressure backflow preventer, water service line, and yard hydrant.
(b) The method and type of tapping the existing water main, the meter, corporation
stop, backflow preventer, meter box and couplings shall meet the requirements of
the local water authority. The backflow preventer shall be installed above ground
in a heated enclosure. See standard backflow preventer detail.
(c) The DISTRICT-maintained portions of water service pipe shall be copper tubing,
or polyethylene of the size shown on the Plans.
(1) Copper tubing shall be soft and annealed Type K and shall comply with
Federal Specification WW-T-799.
(2) Polyethylene pipe will be allowed in areas outside the fenced compound
and under grass. Pipe shall be CTS (copper tubing size) and rated at 200
psi working pressure at 73˚ F. Pipe shall be manufactured with PE 3608
or PE 3710 to SDR 9 wall thickness. Materials and manufacture shall
comply with ANSI NSF Standard 61 and meet the requirements of
AWWA C 901. Joints shall be minimized. Transitions or couplings shall
be compression type brass fittings incorporating a pipe insert and
compression seal with integrated joint restraint.
9.24 Corrosion Protection for Exposed Steel or Pipe
(a) All metal surfaces, including pipe, fittings, and valves, which must be protected
from weather or corrosion shall have a three part coating system such as
Sherwin Williams Exterior Tank System, or approved equal. The surfaces to
which the system is to be applied shall be prepared in accordance with the
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Section VI – Technical Specifications
ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
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manufacturer’s recommendations.
(b) The first part or application shall be a rust penetrating epoxy pre-primer
(Sherwin Williams Macropoxy 920 Pre-Prime or approved equal). After cure, the
intermediate coat or base coat (Sherwin Williams Macropoxy HS high solid epoxy
or approved equal) shall be applied.
(c) The finish or top coat (High Gloss Sherwin Williams Acrolon 218 HS acrylic
polyurethane or approved equal) shall be applied.
(d) Color for pump station piping shall be Sherwin Williams Item Number
SW4001 Bolt Brown, or approved equal. Colors for applications other than force
main piping shall be submitted to the ENGINEER for approval.
9.25 Sewage Pump Station Site Fencing
(a) Fabric
(1) The fabric shall be composed of 6 foot, 9-gauge galvanized steel wire
helically wound to form a continuous chain link fabric having a 2-inch
mesh. Top and bottom edges shall have a twisted and barbed finish. The
fabric shall be manufactured in accordance with ASTM A-392.
(2) Fabric shall be hot-dipped galvanized after weaving to produce a zinc
coating not less in weight than 2.0 ounces per square foot of uncoated wire
surface.
(3) Wire in the fabric shall meet minimum breaking strength of 1,290 pounds
after galvanizing.
(b) Line Posts
Line posts shall be 2 inches O.D. standard pipe weight 1.76 pounds per foot and
hot galvanized (2 ounces per square foot). Posts to be spaced approximately 10
feet on centers and set a full 3 feet in concrete footings, which are crowned at the
ground surface to shed water.
(c) End and Corner Posts
End and corner posts shall be standard hot galvanized (2 oz. per square foot) basic
open hearth copper-bearing steel pipe 3 inches O.D. weighing 5.79 pounds per
foot, for setting a full 3 feet deep in concrete footings, which are crowned at the
ground surface to shed water.
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(d) Gate Posts
Gate posts shall be 4-inch diameter, Schedule 40, standard pipe weight 9.11
pounds per foot and concrete filled.
(e) Top Rail
Top rail shall be 1-5/8 O.D. standard pipe weighing 2.27 pounds per foot and hot
galvanized (2 oz. per square foot) and shall be furnished in random lengths
averaging not less than 20 feet, jointed with extra long pressed steel sleeves, hot
galvanized, making a rigid connection but allowing for expansion and contraction.
(f) End and Gate Post Tops
End and gate post tops shall be galvanized malleable iron, drive fitting outside of
post to exclude moisture.
(g) Fabric ties
Fabric ties for attaching fabric to line posts or top rail shall be aluminum strip or
wire used on top rail every 24 inches and on line posts every 14 inches.
(h) Barbed Wire
The fabric shall be surmounted with 3 strands of barbed wire. Each strand shall
consist of two No. 12-1/2 W&M gauge twisted copper-bearing steel line wires,
Class 3, hot galvanized, with No. 14 W&M gauge, 4 point barbs spaced not more
than 4 inches apart. The barbed wire shall be manufactured in accordance with
ASTM A-121.
Barbed Wire Extensions: All intermediate, gate and corner posts shall be
equipped with extension arms for supporting barbed wire. The base shall be
malleable iron and the extension pressed steel hot galvanized after fabrication.
Intermediate arm shall have provision for passing top rail and corner arm casting
to have set screw.
(i) Brace and Tension Bands
Brace and tension bands shall be unclimbable beveled edge type with 3/8 inch
diameter square shouldered aluminum carriage bolts, non-removable from outside
fence.
(j) Bracing
All corner, gate and terminal posts shall be braced by means of 1-5/8 O.D.
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ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
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horizontal compression member, securely attached to terminal and to first line
posts with malleable iron fittings, beveled edge bands, and truss braced from first
line post to bottom of terminal by 1/2 inch rod and turnbuckle. Corner posts to be
so braced in each direction.
(k) Tension Bars
Tension Bars for attaching fabric to terminal posts shall be 3/16 x 3/4 high carbon
steel attached to terminal posts by means of beveled edge bands.
9.26 Signage
(a) A weather resistant sign shall be provided in accordance with the sign detail in the
Specifications.
9.27 Access Road and Pump Station Site
(a) The pump station access road shall be 12 feet wide (min.) with 2 feet wide
shoulders. Maximum centerline grade is 18% unless otherwise approved by the
ENGINEER. The road shall be crowned and sloped ¼ inches per foot toward the
shoulders. Road shoulders shall be sloped away from road at 5%. The road shall
be finished with 8 inches (compacted depth) of ABC stone and 2 inches of SF or
RSF 9.5B pavement, as per NCDOT Specifications. Ditches shall be designed
and constructed in accordance with N.C. Erosion and Sedimentation Control
Manual, latest edition.
(b) Cut slopes shall be sloped at 1 ½ : 1 (max.) Fill slopes shall be sloped at 2:1
(max.).
(c) A turn around shall be constructed adjacent to and outside the fence with a
minimum turning radius of 20 feet and a minimum depth of 35 feet.
(d) The pump station site shall be designed such that a minimum 5 feet clearance is
provided between the fence and the wet well, valve vault, poles, generator, control
panels and any other above ground equipment. The access gate shall be 16 feet
wide (min.)
(e) The pump station site, turnaround, and access road shall be paved as specified
above. The pump station site shall be paved 2 feet outside the fence, and sloped
¼ inch per foot from the center outward.
(f) The pump station drawings shall include a grading plan showing existing and
proposed contours on access road and pump station site, and a detailed site plan
showing the location of the wet well, valve vaults, pump hoist, control panels,
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ITEM VI – DUPLEX SUBMERSIBLE NON-CLOG SUCTION LIFT AND
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fence, all underground piping and electrical conduits, light pole, scada equipment
pole, and generator in sufficient detail for a surveyor to lay out the site.
9.28 Odor Control
(a) The DISTRICT will consider odor control systems on a case by case basis. If the
developer or owner of a development wishes to install an odor control system at a
pump station, they shall contact the DISTRICT to discuss the need and type of
equipment. All equipment is subject to review and approval by the DISTRICT.